<?php

namespace App\Services;
/**
 * Geohash generation class for php
 *
 * This file copyright (C) 2013 Bruce Chen (http://weibo.com/smcz)
 *
 * Author: Bruce Chen (weibo: @一个开发者)
 *
 */
/**
 *
 * Encode and decode geohashes
 *
 * Find neighbors
 *
 */

class GeoHash {
    private $bitss = array(16, 8, 4, 2, 1);
    private $neighbors = array();
    private $borders = array();

    private $coding = "0123456789bcdefghjkmnpqrstuvwxyz";
    private $codingMap = array();

    /**
     * GeoHash constructor.
     */
    public function __construct() {

        $this->neighbors['right']['even'] = 'bc01fg45238967deuvhjyznpkmstqrwx';
        $this->neighbors['left']['even'] = '238967debc01fg45kmstqrwxuvhjyznp';
        $this->neighbors['top']['even'] = 'p0r21436x8zb9dcf5h7kjnmqesgutwvy';
        $this->neighbors['bottom']['even'] = '14365h7k9dcfesgujnmqp0r2twvyx8zb';

        $this->borders['right']['even'] = 'bcfguvyz';
        $this->borders['left']['even'] = '0145hjnp';
        $this->borders['top']['even'] = 'prxz';
        $this->borders['bottom']['even'] = '028b';

        $this->neighbors['bottom']['odd'] = $this->neighbors['left']['even'];
        $this->neighbors['top']['odd'] = $this->neighbors['right']['even'];
        $this->neighbors['left']['odd'] = $this->neighbors['bottom']['even'];
        $this->neighbors['right']['odd'] = $this->neighbors['top']['even'];

        $this->borders['bottom']['odd'] = $this->borders['left']['even'];
        $this->borders['top']['odd'] = $this->borders['right']['even'];
        $this->borders['left']['odd'] = $this->borders['bottom']['even'];
        $this->borders['right']['odd'] = $this->borders['top']['even'];

        //build map from encoding char to 0 padded bitfield
        for($i=0; $i<32; $i++) {

            $this->codingMap[substr($this->coding, $i, 1)] = str_pad(decbin($i), 5, "0", STR_PAD_LEFT);
        }

    }

    /**
     * Decode a geohash and return an array with decimal lat,long in it
     *
     * @param $hash
     * @return array
     */
    public function decode($hash) {

        //decode hash into binary string
        $binary = "";
        $hl = strlen($hash);
        for ($i=0; $i<$hl; $i++) {

            $binary .= $this->codingMap[substr($hash, $i, 1)];
        }

        //split the binary into lat and log binary strings
        $bl = strlen($binary);
        $blat = "";
        $blong = "";
        for ($i=0; $i<$bl; $i++) {

            if ($i%2)
                $blat=$blat.substr($binary, $i, 1);
            else
                $blong=$blong.substr($binary, $i, 1);

        }

        //now concert to decimal
        $lat = $this->binDecode($blat, -90, 90);
        $long = $this->binDecode($blong, -180, 180);

        //figure out how precise the bit count makes this calculation
        $latErr = $this->calcError(strlen($blat), -90, 90);
        $longErr = $this->calcError(strlen($blong), -180, 180);

        //how many decimal places should we use? There's a little art to
        //this to ensure I get the same roundings as geohash.org
        $latPlaces = max(1, -round(log10($latErr))) - 1;
        $longPlaces = max(1, -round(log10($longErr))) - 1;

        //round it
        $lat = round($lat, $latPlaces);
        $long = round($long, $longPlaces);
        return array($lat, $long);
    }

    /**
     * @param $srcHash
     * @param $dir
     * @return string
     */
    private function calculateAdjacent($srcHash, $dir) {

        $srcHash = strtolower($srcHash);
        $lastChr = $srcHash[strlen($srcHash) - 1];
        $type = (strlen($srcHash) % 2) ? 'odd' : 'even';
        $base = substr($srcHash, 0, strlen($srcHash) - 1);

        if (strpos($this->borders[$dir][$type], $lastChr) !== false) {

            $base = $this->calculateAdjacent($base, $dir);
        }

        return $base . $this->coding[strpos($this->neighbors[$dir][$type], $lastChr)];
    }

    /**
     * @param $srcHash
     * @return mixed
     */
    public function neighbors($srcHash) {

        $geohashPrefix = substr($srcHash, 0, strlen($srcHash) - 1);

        $neighbors['top'] = $this->calculateAdjacent($srcHash, 'top');
        $neighbors['bottom'] = $this->calculateAdjacent($srcHash, 'bottom');
        $neighbors['right'] = $this->calculateAdjacent($srcHash, 'right');
        $neighbors['left'] = $this->calculateAdjacent($srcHash, 'left');

        $neighbors['topleft'] = $this->calculateAdjacent($neighbors['left'], 'top');
        $neighbors['topright'] = $this->calculateAdjacent($neighbors['right'], 'top');
        $neighbors['bottomright'] = $this->calculateAdjacent($neighbors['right'], 'bottom');
        $neighbors['bottomleft'] = $this->calculateAdjacent($neighbors['left'], 'bottom');

        return $neighbors;
    }

    /**
     * Encode a hash from given lat and long
     *
     * @param $lat
     * @param $long
     * @return string
     */
    public function encode($lat, $long) {

        //how many bits does latitude need?
        $plat = $this->precision($lat);
        $latbits = 1;
        $err = 45;
        while($err > $plat) {

            $latbits++;
            $err /= 2;
        }

        //how many bits does longitude need?
        $plong = $this->precision($long);
        $longbits = 1;
        $err = 90;
        while($err > $plong) {

            $longbits++;
            $err /= 2;
        }

        //bit counts need to be equal
        $bits = max($latbits, $longbits);

        //as the hash create bits in groups of 5, lets not
        //waste any bits - lets bulk it up to a multiple of 5
        //and favour the longitude for any odd bits
        $longbits = $bits;
        $latbits = $bits;
        $addlong = 1;
        while (($longbits + $latbits) % 5 != 0) {

            $longbits += $addlong;
            $latbits += !$addlong;
            $addlong = !$addlong;
        }


        //encode each as binary string
        $blat = $this->binEncode($lat, -90, 90, $latbits);
        $blong = $this->binEncode($long, -180, 180, $longbits);

        //merge lat and long together
        $binary = "";
        $uselong = 1;
        while (strlen($blat) + strlen($blong)) {

            if ($uselong) {

                $binary = $binary.substr($blong, 0, 1);
                $blong = substr($blong, 1);

            } else {

                $binary = $binary.substr($blat, 0, 1);
                $blat = substr($blat, 1);
            }

            $uselong = !$uselong;
        }

        //convert binary string to hash
        $hash = "";
        for ($i=0; $i<strlen($binary); $i+=5) {

            $n = bindec(substr($binary, $i, 5));
            $hash = $hash.$this->coding[$n];
        }

        return $hash;
    }

    /**
     * What's the maximum error for $bits bits covering a range $min to $max
     *
     * @param $bits
     * @param $min
     * @param $max
     * @return float|int
     */
    private function calcError($bits, $min, $max) {

        $err = ($max - $min) / 2;
        while ($bits--)
            $err /= 2;
        return $err;
    }

    /**
     * returns precision of number
     * precision of 42 is 0.5
     * precision of 42.4 is 0.05
     * precision of 42.41 is 0.005 etc
     *
     * @param $number
     * @return float|int
     */
    private function precision($number) {

        $precision = 0;
        $pt = strpos($number,'.');
        if ($pt !== false) {

            $precision = -(strlen($number) - $pt - 1);
        }

        return pow(10, $precision) / 2;
    }


    /**
     * create binary encoding of number as detailed in http://en.wikipedia.org/wiki/Geohash#Example
     * removing the tail recursion is left an exercise for the reader
     *
     * @param $number
     * @param $min
     * @param $max
     * @param $bitCount
     * @return string
     */
    private function binEncode($number, $min, $max, $bitCount) {

        if ($bitCount == 0)
            return "";

        #echo "$bitcount: $min $max<br>";

        //this is our mid point - we will produce a bit to say
        //whether $number is above or below this mid point
        $mid = ($min + $max) / 2;
        if ($number > $mid)
            return "1" . $this->binEncode($number, $mid, $max, $bitCount - 1);
        else
            return "0" . $this->binEncode($number, $min, $mid, $bitCount - 1);
    }

    /**
     * decodes binary encoding of number as detailed in http://en.wikipedia.org/wiki/Geohash#Example
     * removing the tail recursion is left an exercise for the reader
     *
     * @param $binary
     * @param $min
     * @param $max
     * @return float|int
     */
    private function binDecode($binary, $min, $max) {

        $mid = ($min + $max) / 2;

        if (strlen($binary) == 0)
            return $mid;

        $bit = substr($binary, 0, 1);
        $binary = substr($binary, 1);

        if ($bit == 1)
            return $this->binDecode($binary, $mid, $max);
        else
            return $this->binDecode($binary, $min, $mid);
    }
}